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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// Contributors: Dan MacDonald
package org.apache.log4j.net;
import java.io.IOException;
import java.io.ObjectOutputStream;
import java.io.InterruptedIOException;
import java.net.InetAddress;
import java.net.Socket;
import org.apache.log4j.AppenderSkeleton;
import org.apache.log4j.helpers.LogLog;
import org.apache.log4j.spi.ErrorCode;
import org.apache.log4j.spi.LoggingEvent;
/**
Sends {@link LoggingEvent} objects to a remote a log server,
usually a {@link SocketNode}.
The SocketAppender has the following properties:
- If sent to a {@link SocketNode}, remote logging is
non-intrusive as far as the log event is concerned. In other
words, the event will be logged with the same time stamp, {@link
org.apache.log4j.NDC}, location info as if it were logged locally by
the client.
- SocketAppenders do not use a layout. They ship a
serialized {@link LoggingEvent} object to the server side.
- Remote logging uses the TCP protocol. Consequently, if
the server is reachable, then log events will eventually arrive
at the server.
- If the remote server is down, the logging requests are
simply dropped. However, if and when the server comes back up,
then event transmission is resumed transparently. This
transparent reconneciton is performed by a connector
thread which periodically attempts to connect to the server.
- Logging events are automatically buffered by the
native TCP implementation. This means that if the link to server
is slow but still faster than the rate of (log) event production
by the client, the client will not be affected by the slow
network connection. However, if the network connection is slower
then the rate of event production, then the client can only
progress at the network rate. In particular, if the network link
to the the server is down, the client will be blocked.
On the other hand, if the network link is up, but the server
is down, the client will not be blocked when making log requests
but the log events will be lost due to server unavailability.
- Even if a
SocketAppender is no longer
attached to any category, it will not be garbage collected in
the presence of a connector thread. A connector thread exists
only if the connection to the server is down. To avoid this
garbage collection problem, you should {@link #close} the the
SocketAppender explicitly. See also next item.
Long lived applications which create/destroy many
SocketAppender instances should be aware of this
garbage collection problem. Most other applications can safely
ignore it.
- If the JVM hosting the
SocketAppender exits
before the SocketAppender is closed either
explicitly or subsequent to garbage collection, then there might
be untransmitted data in the pipe which might be lost. This is a
common problem on Windows based systems.
To avoid lost data, it is usually sufficient to {@link
#close} the SocketAppender either explicitly or by
calling the {@link org.apache.log4j.LogManager#shutdown} method
before exiting the application.
@author Ceki Gülcü
@since 0.8.4 */
public class SocketAppender extends AppenderSkeleton {
/**
The default port number of remote logging server (4560).
@since 1.2.15
*/
static public final int DEFAULT_PORT = 4560;
/**
The default reconnection delay (30000 milliseconds or 30 seconds).
*/
static final int DEFAULT_RECONNECTION_DELAY = 30000;
/**
We remember host name as String in addition to the resolved
InetAddress so that it can be returned via getOption().
*/
String remoteHost;
/**
* The MulticastDNS zone advertised by a SocketAppender
*/
public static final String ZONE = "_log4j_obj_tcpconnect_appender.local.";
InetAddress address;
int port = DEFAULT_PORT;
ObjectOutputStream oos;
int reconnectionDelay = DEFAULT_RECONNECTION_DELAY;
boolean locationInfo = false;
private String application;
private Connector connector;
int counter = 0;
// reset the ObjectOutputStream every 70 calls
//private static final int RESET_FREQUENCY = 70;
private static final int RESET_FREQUENCY = 1;
private boolean advertiseViaMulticastDNS;
private ZeroConfSupport zeroConf;
public SocketAppender() {
}
/**
Connects to remote server at address and port.
*/
public SocketAppender(InetAddress address, int port) {
this.address = address;
this.remoteHost = address.getHostName();
this.port = port;
connect(address, port);
}
/**
Connects to remote server at host and port.
*/
public SocketAppender(String host, int port) {
this.port = port;
this.address = getAddressByName(host);
this.remoteHost = host;
connect(address, port);
}
/**
Connect to the specified RemoteHost and Port.
*/
public void activateOptions() {
if (advertiseViaMulticastDNS) {
zeroConf = new ZeroConfSupport(ZONE, port, getName());
zeroConf.advertise();
}
connect(address, port);
}
/**
* Close this appender.
*
* This will mark the appender as closed and call then {@link
* #cleanUp} method.
* */
synchronized public void close() {
if(closed)
return;
this.closed = true;
if (advertiseViaMulticastDNS) {
zeroConf.unadvertise();
}
cleanUp();
}
/**
* Drop the connection to the remote host and release the underlying
* connector thread if it has been created
* */
public void cleanUp() {
if(oos != null) {
try {
oos.close();
} catch(IOException e) {
if (e instanceof InterruptedIOException) {
Thread.currentThread().interrupt();
}
LogLog.error("Could not close oos.", e);
}
oos = null;
}
if(connector != null) {
//LogLog.debug("Interrupting the connector.");
connector.interrupted = true;
connector = null; // allow gc
}
}
void connect(InetAddress address, int port) {
if(this.address == null)
return;
try {
// First, close the previous connection if any.
cleanUp();
oos = new ObjectOutputStream(new Socket(address, port).getOutputStream());
} catch(IOException e) {
if (e instanceof InterruptedIOException) {
Thread.currentThread().interrupt();
}
String msg = "Could not connect to remote log4j server at ["
+address.getHostName()+"].";
if(reconnectionDelay > 0) {
msg += " We will try again later.";
fireConnector(); // fire the connector thread
} else {
msg += " We are not retrying.";
errorHandler.error(msg, e, ErrorCode.GENERIC_FAILURE);
}
LogLog.error(msg);
}
}
public void append(LoggingEvent event) {
if(event == null)
return;
if(address==null) {
errorHandler.error("No remote host is set for SocketAppender named \""+
this.name+"\".");
return;
}
if(oos != null) {
try {
if(locationInfo) {
event.getLocationInformation();
}
if (application != null) {
event.setProperty("application", application);
}
event.getNDC();
event.getThreadName();
event.getMDCCopy();
event.getRenderedMessage();
event.getThrowableStrRep();
oos.writeObject(event);
//LogLog.debug("=========Flushing.");
oos.flush();
if(++counter >= RESET_FREQUENCY) {
counter = 0;
// Failing to reset the object output stream every now and
// then creates a serious memory leak.
//System.err.println("Doing oos.reset()");
oos.reset();
}
} catch(IOException e) {
if (e instanceof InterruptedIOException) {
Thread.currentThread().interrupt();
}
oos = null;
LogLog.warn("Detected problem with connection: "+e);
if(reconnectionDelay > 0) {
fireConnector();
} else {
errorHandler.error("Detected problem with connection, not reconnecting.", e,
ErrorCode.GENERIC_FAILURE);
}
}
}
}
public void setAdvertiseViaMulticastDNS(boolean advertiseViaMulticastDNS) {
this.advertiseViaMulticastDNS = advertiseViaMulticastDNS;
}
public boolean isAdvertiseViaMulticastDNS() {
return advertiseViaMulticastDNS;
}
void fireConnector() {
if(connector == null) {
LogLog.debug("Starting a new connector thread.");
connector = new Connector();
connector.setDaemon(true);
connector.setPriority(Thread.MIN_PRIORITY);
connector.start();
}
}
static
InetAddress getAddressByName(String host) {
try {
return InetAddress.getByName(host);
} catch(Exception e) {
if (e instanceof InterruptedIOException || e instanceof InterruptedException) {
Thread.currentThread().interrupt();
}
LogLog.error("Could not find address of ["+host+"].", e);
return null;
}
}
/**
* The SocketAppender does not use a layout. Hence, this method
* returns false.
* */
public boolean requiresLayout() {
return false;
}
/**
* The RemoteHost option takes a string value which should be
* the host name of the server where a {@link SocketNode} is
* running.
* */
public void setRemoteHost(String host) {
address = getAddressByName(host);
remoteHost = host;
}
/**
Returns value of the RemoteHost option.
*/
public String getRemoteHost() {
return remoteHost;
}
/**
The Port option takes a positive integer representing
the port where the server is waiting for connections.
*/
public void setPort(int port) {
this.port = port;
}
/**
Returns value of the Port option.
*/
public int getPort() {
return port;
}
/**
The LocationInfo option takes a boolean value. If true,
the information sent to the remote host will include location
information. By default no location information is sent to the server.
*/
public void setLocationInfo(boolean locationInfo) {
this.locationInfo = locationInfo;
}
/**
Returns value of the LocationInfo option.
*/
public boolean getLocationInfo() {
return locationInfo;
}
/**
* The App option takes a string value which should be the name of the
* application getting logged.
* If property was already set (via system property), don't set here.
* @since 1.2.15
*/
public void setApplication(String lapp) {
this.application = lapp;
}
/**
* Returns value of the Application option.
* @since 1.2.15
*/
public String getApplication() {
return application;
}
/**
The ReconnectionDelay option takes a positive integer
representing the number of milliseconds to wait between each
failed connection attempt to the server. The default value of
this option is 30000 which corresponds to 30 seconds.
Setting this option to zero turns off reconnection
capability.
*/
public void setReconnectionDelay(int delay) {
this.reconnectionDelay = delay;
}
/**
Returns value of the ReconnectionDelay option.
*/
public int getReconnectionDelay() {
return reconnectionDelay;
}
/**
The Connector will reconnect when the server becomes available
again. It does this by attempting to open a new connection every
reconnectionDelay milliseconds.
It stops trying whenever a connection is established. It will
restart to try reconnect to the server when previously open
connection is droppped.
@author Ceki Gülcü
@since 0.8.4
*/
class Connector extends Thread {
boolean interrupted = false;
public
void run() {
Socket socket;
while(!interrupted) {
try {
sleep(reconnectionDelay);
LogLog.debug("Attempting connection to "+address.getHostName());
socket = new Socket(address, port);
synchronized(this) {
oos = new ObjectOutputStream(socket.getOutputStream());
connector = null;
LogLog.debug("Connection established. Exiting connector thread.");
break;
}
} catch(InterruptedException e) {
LogLog.debug("Connector interrupted. Leaving loop.");
return;
} catch(java.net.ConnectException e) {
LogLog.debug("Remote host "+address.getHostName()
+" refused connection.");
} catch(IOException e) {
if (e instanceof InterruptedIOException) {
Thread.currentThread().interrupt();
}
LogLog.debug("Could not connect to " + address.getHostName()+
". Exception is " + e);
}
}
//LogLog.debug("Exiting Connector.run() method.");
}
/**
public
void finalize() {
LogLog.debug("Connector finalize() has been called.");
}
*/
}
}